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When I calculate alpha blending, I need to convert 8bit alpha to float, which would be alpha/255. Because NEON doesn't have divide, I want to alpha * 1/255. So how can I generate 1/255 vector in q1?

vmov.f32 q1, #0.003921569 always reports an error.

vmov.u32 q1, #255 vrecpe.u32 q1, q1 always generates 0 in f32.

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    Generally speaking, if you have 8 bit data, you don't want to convert to float to do alpha blending; you can get sufficient precision using 16-bit fixed-point arithmetic which lets you keep more pixels in each vector. Nov 5, 2012 at 1:58

4 Answers 4

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You are close. You need to convert the vector of 255 to a float before taking the reciprocal.

vmov.u32        q0, #255
vcvt.f32.u32    q0, q0
vrecpe.f32      q1, q0

Be advised that vrecpe has a small amount of error, but it should be close enough for alpha blending.

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You really needn't bother with floating-point for a trivial alpha blend. Given:

y = rint(x * a / 255.0);

You can get the same result for any 8-bit inputs without floating-point using:

t = x * a;
t += (t + 0x80) >> 8;
y = (t + 0x80) >> 8;

Which is something like:

; given eight 8-bit x in d0, and eight 8-bit a in d1
    vmull.u8 q2, d0, d1
    vrsra.u16 q2, q2, #8
    vrshrn.u16 d2, q2, #8
; result is eight 8-bit (s*a/255) in d2

Generally the last two operations implement a well-rounded divide by 255 from a 16-bit input to an 8-bit output; but they rely on the limited range of an 8-by-8 multiply. If the 16-bit intermediate is more than just the result of a multiply then it may be necessary to clamp, and since there's no vqrsra the sequence gets longer:

; given eight 8-bit x in d0, and eight 8-bit a in d1
    vmull.u8 q2, d0, d1
    ???
    vrshr.u16 q3, q2, #8
    vqadd.u16 q2, q2, q3
    vqrshrn.u16 d2, q2, #8
; result is eight 8-bit (s*a/255) in d2
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Not a 100% answer, but since you didn't get any others so far I thought I'd help you get started;

From what I remember, the subset of floats you can load using vmov.f32 is very limited, so if you want to load an arbitrary float, you need to store it as a constant and load it from the constant pool using vldr. Something like this should do it;

ldr r1,=floats 

vldr.32 s0,[r1]     @1/256

floats:
.float 0.003921569

The "not 100%" part is that I've not looked into the vector instructions so I'm unsure if you can substitute s0 right away with q1 in this code or if you need to move s0 to q1 after loading.

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  • Thanks for your answer! Yes, neon can also load constant. The asm code is embedded in C, so I can also calculate float constant in c. but neon can not move register like r0 to Q0/S0, right? Maybe I have to pass the constant to a variable and pass variable address to embedded asm code. Oct 31, 2012 at 10:16
  • @RichardZhao: of course you can move from r0 to s0. vmov s0, r0. You can also load a precomputed constant directly to s0 or q0, which is probably what you actually want. Nov 5, 2012 at 1:55
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probably you want float32x4_t x = vdupq_n_32(1.0f / 255);

the compiler takes care to compute the constant, the vdup instruction broadcasts the value to all four lanes of a vector

the vdup instruction supports NEON scalars and ARM registers as source operand

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